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android / platform / external / chromium_org / third_party / WebKit / 5c87bf8 / . / Source / WebCore / Modules / websockets / WorkerThreadableWebSocketChannel.cpp
blob: 143c8f2b0a7aff75d4012276cf7e8926fb46f220 [file] [log] [blame]
/*
* Copyright (C) 2011, 2012 Google Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#if ENABLE(WEB_SOCKETS) && ENABLE(WORKERS)
#include "WorkerThreadableWebSocketChannel.h"
#include "Blob.h"
#include "CrossThreadTask.h"
#include "Document.h"
#include "ScriptExecutionContext.h"
#include "ThreadableWebSocketChannelClientWrapper.h"
#include "WebSocketChannel.h"
#include "WebSocketChannelClient.h"
#include "WorkerContext.h"
#include "WorkerLoaderProxy.h"
#include "WorkerRunLoop.h"
#include "WorkerThread.h"
#include <wtf/ArrayBuffer.h>
#include <wtf/MainThread.h>
#include <wtf/PassRefPtr.h>
#include <wtf/text/WTFString.h>
namespace WebCore {
WorkerThreadableWebSocketChannel::WorkerThreadableWebSocketChannel(WorkerContext* context, WebSocketChannelClient* client, const String& taskMode)
: m_workerContext(context)
, m_workerClientWrapper(ThreadableWebSocketChannelClientWrapper::create(context, client))
, m_bridge(Bridge::create(m_workerClientWrapper, m_workerContext, taskMode))
{
m_bridge->initialize();
}
WorkerThreadableWebSocketChannel::~WorkerThreadableWebSocketChannel()
{
if (m_bridge)
m_bridge->disconnect();
}
void WorkerThreadableWebSocketChannel::connect(const KURL& url, const String& protocol)
{
if (m_bridge)
m_bridge->connect(url, protocol);
}
String WorkerThreadableWebSocketChannel::subprotocol()
{
ASSERT(m_workerClientWrapper);
return m_workerClientWrapper->subprotocol();
}
String WorkerThreadableWebSocketChannel::extensions()
{
ASSERT(m_workerClientWrapper);
return m_workerClientWrapper->extensions();
}
ThreadableWebSocketChannel::SendResult WorkerThreadableWebSocketChannel::send(const String& message)
{
if (!m_bridge)
return ThreadableWebSocketChannel::SendFail;
return m_bridge->send(message);
}
ThreadableWebSocketChannel::SendResult WorkerThreadableWebSocketChannel::send(const ArrayBuffer& binaryData, unsigned byteOffset, unsigned byteLength)
{
if (!m_bridge)
return ThreadableWebSocketChannel::SendFail;
return m_bridge->send(binaryData, byteOffset, byteLength);
}
ThreadableWebSocketChannel::SendResult WorkerThreadableWebSocketChannel::send(const Blob& binaryData)
{
if (!m_bridge)
return ThreadableWebSocketChannel::SendFail;
return m_bridge->send(binaryData);
}
unsigned long WorkerThreadableWebSocketChannel::bufferedAmount() const
{
if (!m_bridge)
return 0;
return m_bridge->bufferedAmount();
}
void WorkerThreadableWebSocketChannel::close(int code, const String& reason)
{
if (m_bridge)
m_bridge->close(code, reason);
}
void WorkerThreadableWebSocketChannel::fail(const String& reason)
{
if (m_bridge)
m_bridge->fail(reason);
}
void WorkerThreadableWebSocketChannel::disconnect()
{
m_bridge->disconnect();
m_bridge.clear();
}
void WorkerThreadableWebSocketChannel::suspend()
{
m_workerClientWrapper->suspend();
if (m_bridge)
m_bridge->suspend();
}
void WorkerThreadableWebSocketChannel::resume()
{
m_workerClientWrapper->resume();
if (m_bridge)
m_bridge->resume();
}
WorkerThreadableWebSocketChannel::Peer::Peer(PassRefPtr<ThreadableWebSocketChannelClientWrapper> clientWrapper, WorkerLoaderProxy& loaderProxy, ScriptExecutionContext* context, const String& taskMode)
: m_workerClientWrapper(clientWrapper)
, m_loaderProxy(loaderProxy)
, m_mainWebSocketChannel(WebSocketChannel::create(static_cast<Document*>(context), this))
, m_taskMode(taskMode)
{
ASSERT(isMainThread());
}
WorkerThreadableWebSocketChannel::Peer::~Peer()
{
ASSERT(isMainThread());
if (m_mainWebSocketChannel)
m_mainWebSocketChannel->disconnect();
}
void WorkerThreadableWebSocketChannel::Peer::connect(const KURL& url, const String& protocol)
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel)
return;
m_mainWebSocketChannel->connect(url, protocol);
}
static void workerContextDidSend(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper, ThreadableWebSocketChannel::SendResult sendRequestResult)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->setSendRequestResult(sendRequestResult);
}
void WorkerThreadableWebSocketChannel::Peer::send(const String& message)
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel || !m_workerClientWrapper)
return;
ThreadableWebSocketChannel::SendResult sendRequestResult = m_mainWebSocketChannel->send(message);
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidSend, m_workerClientWrapper, sendRequestResult), m_taskMode);
}
void WorkerThreadableWebSocketChannel::Peer::send(const ArrayBuffer& binaryData)
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel || !m_workerClientWrapper)
return;
ThreadableWebSocketChannel::SendResult sendRequestResult = m_mainWebSocketChannel->send(binaryData, 0, binaryData.byteLength());
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidSend, m_workerClientWrapper, sendRequestResult), m_taskMode);
}
void WorkerThreadableWebSocketChannel::Peer::send(const Blob& binaryData)
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel || !m_workerClientWrapper)
return;
ThreadableWebSocketChannel::SendResult sendRequestResult = m_mainWebSocketChannel->send(binaryData);
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidSend, m_workerClientWrapper, sendRequestResult), m_taskMode);
}
static void workerContextDidGetBufferedAmount(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper, unsigned long bufferedAmount)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->setBufferedAmount(bufferedAmount);
}
void WorkerThreadableWebSocketChannel::Peer::bufferedAmount()
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel || !m_workerClientWrapper)
return;
unsigned long bufferedAmount = m_mainWebSocketChannel->bufferedAmount();
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidGetBufferedAmount, m_workerClientWrapper, bufferedAmount), m_taskMode);
}
void WorkerThreadableWebSocketChannel::Peer::close(int code, const String& reason)
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel)
return;
m_mainWebSocketChannel->close(code, reason);
}
void WorkerThreadableWebSocketChannel::Peer::fail(const String& reason)
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel)
return;
m_mainWebSocketChannel->fail(reason);
}
void WorkerThreadableWebSocketChannel::Peer::disconnect()
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel)
return;
m_mainWebSocketChannel->disconnect();
m_mainWebSocketChannel = 0;
}
void WorkerThreadableWebSocketChannel::Peer::suspend()
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel)
return;
m_mainWebSocketChannel->suspend();
}
void WorkerThreadableWebSocketChannel::Peer::resume()
{
ASSERT(isMainThread());
if (!m_mainWebSocketChannel)
return;
m_mainWebSocketChannel->resume();
}
static void workerContextDidConnect(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper, const String& subprotocol, const String& extensions)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->setSubprotocol(subprotocol);
workerClientWrapper->setExtensions(extensions);
workerClientWrapper->didConnect();
}
void WorkerThreadableWebSocketChannel::Peer::didConnect()
{
ASSERT(isMainThread());
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidConnect, m_workerClientWrapper, m_mainWebSocketChannel->subprotocol(), m_mainWebSocketChannel->extensions()), m_taskMode);
}
static void workerContextDidReceiveMessage(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper, const String& message)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->didReceiveMessage(message);
}
void WorkerThreadableWebSocketChannel::Peer::didReceiveMessage(const String& message)
{
ASSERT(isMainThread());
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidReceiveMessage, m_workerClientWrapper, message), m_taskMode);
}
static void workerContextDidReceiveBinaryData(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper, PassOwnPtr<Vector<char> > binaryData)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->didReceiveBinaryData(binaryData);
}
void WorkerThreadableWebSocketChannel::Peer::didReceiveBinaryData(PassOwnPtr<Vector<char> > binaryData)
{
ASSERT(isMainThread());
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidReceiveBinaryData, m_workerClientWrapper, binaryData), m_taskMode);
}
static void workerContextDidUpdateBufferedAmount(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper, unsigned long bufferedAmount)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->didUpdateBufferedAmount(bufferedAmount);
}
void WorkerThreadableWebSocketChannel::Peer::didUpdateBufferedAmount(unsigned long bufferedAmount)
{
ASSERT(isMainThread());
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidUpdateBufferedAmount, m_workerClientWrapper, bufferedAmount), m_taskMode);
}
static void workerContextDidStartClosingHandshake(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->didStartClosingHandshake();
}
void WorkerThreadableWebSocketChannel::Peer::didStartClosingHandshake()
{
ASSERT(isMainThread());
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidStartClosingHandshake, m_workerClientWrapper), m_taskMode);
}
static void workerContextDidClose(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper, unsigned long unhandledBufferedAmount, WebSocketChannelClient::ClosingHandshakeCompletionStatus closingHandshakeCompletion, unsigned short code, const String& reason)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->didClose(unhandledBufferedAmount, closingHandshakeCompletion, code, reason);
}
void WorkerThreadableWebSocketChannel::Peer::didClose(unsigned long unhandledBufferedAmount, ClosingHandshakeCompletionStatus closingHandshakeCompletion, unsigned short code, const String& reason)
{
ASSERT(isMainThread());
m_mainWebSocketChannel = 0;
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidClose, m_workerClientWrapper, unhandledBufferedAmount, closingHandshakeCompletion, code, reason), m_taskMode);
}
static void workerContextDidReceiveMessageError(ScriptExecutionContext* context, PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper)
{
ASSERT_UNUSED(context, context->isWorkerContext());
workerClientWrapper->didReceiveMessageError();
}
void WorkerThreadableWebSocketChannel::Peer::didReceiveMessageError()
{
ASSERT(isMainThread());
m_loaderProxy.postTaskForModeToWorkerContext(createCallbackTask(&workerContextDidReceiveMessageError, m_workerClientWrapper), m_taskMode);
}
WorkerThreadableWebSocketChannel::Bridge::Bridge(PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper, PassRefPtr<WorkerContext> workerContext, const String& taskMode)
: m_workerClientWrapper(workerClientWrapper)
, m_workerContext(workerContext)
, m_loaderProxy(m_workerContext->thread()->workerLoaderProxy())
, m_taskMode(taskMode)
, m_peer(0)
{
ASSERT(m_workerClientWrapper.get());
}
WorkerThreadableWebSocketChannel::Bridge::~Bridge()
{
disconnect();
}
class WorkerThreadableWebSocketChannel::WorkerContextDidInitializeTask : public ScriptExecutionContext::Task {
public:
static PassOwnPtr<ScriptExecutionContext::Task> create(WorkerThreadableWebSocketChannel::Peer* peer,
WorkerLoaderProxy* loaderProxy,
PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper)
{
return adoptPtr(new WorkerContextDidInitializeTask(peer, loaderProxy, workerClientWrapper));
}
virtual ~WorkerContextDidInitializeTask() { }
virtual void performTask(ScriptExecutionContext* context) OVERRIDE
{
ASSERT_UNUSED(context, context->isWorkerContext());
if (m_workerClientWrapper->failedWebSocketChannelCreation()) {
// If Bridge::initialize() quitted earlier, we need to kick mainThreadDestroy() to delete the peer.
OwnPtr<WorkerThreadableWebSocketChannel::Peer> peer = adoptPtr(m_peer);
m_peer = 0;
m_loaderProxy->postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadDestroy, peer.release()));
} else
m_workerClientWrapper->didCreateWebSocketChannel(m_peer);
}
virtual bool isCleanupTask() const OVERRIDE { return true; }
private:
WorkerContextDidInitializeTask(WorkerThreadableWebSocketChannel::Peer* peer,
WorkerLoaderProxy* loaderProxy,
PassRefPtr<ThreadableWebSocketChannelClientWrapper> workerClientWrapper)
: m_peer(peer)
, m_loaderProxy(loaderProxy)
, m_workerClientWrapper(workerClientWrapper)
{
}
WorkerThreadableWebSocketChannel::Peer* m_peer;
WorkerLoaderProxy* m_loaderProxy;
RefPtr<ThreadableWebSocketChannelClientWrapper> m_workerClientWrapper;
};
void WorkerThreadableWebSocketChannel::Bridge::mainThreadInitialize(ScriptExecutionContext* context, WorkerLoaderProxy* loaderProxy, PassRefPtr<ThreadableWebSocketChannelClientWrapper> prpClientWrapper, const String& taskMode)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
RefPtr<ThreadableWebSocketChannelClientWrapper> clientWrapper = prpClientWrapper;
Peer* peer = Peer::create(clientWrapper, *loaderProxy, context, taskMode);
bool sent = loaderProxy->postTaskForModeToWorkerContext(
WorkerThreadableWebSocketChannel::WorkerContextDidInitializeTask::create(peer, loaderProxy, clientWrapper), taskMode);
if (!sent) {
clientWrapper->clearPeer();
delete peer;
}
}
void WorkerThreadableWebSocketChannel::Bridge::initialize()
{
ASSERT(!m_peer);
setMethodNotCompleted();
RefPtr<Bridge> protect(this);
m_loaderProxy.postTaskToLoader(
createCallbackTask(&Bridge::mainThreadInitialize,
AllowCrossThreadAccess(&m_loaderProxy), m_workerClientWrapper, m_taskMode));
waitForMethodCompletion();
// m_peer may be null when the nested runloop exited before a peer has created.
m_peer = m_workerClientWrapper->peer();
if (!m_peer)
m_workerClientWrapper->setFailedWebSocketChannelCreation();
}
void WorkerThreadableWebSocketChannel::mainThreadConnect(ScriptExecutionContext* context, Peer* peer, const KURL& url, const String& protocol)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
peer->connect(url, protocol);
}
void WorkerThreadableWebSocketChannel::Bridge::connect(const KURL& url, const String& protocol)
{
ASSERT(m_workerClientWrapper);
if (!m_peer)
return;
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadConnect, AllowCrossThreadAccess(m_peer), url, protocol));
}
void WorkerThreadableWebSocketChannel::mainThreadSend(ScriptExecutionContext* context, Peer* peer, const String& message)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
peer->send(message);
}
void WorkerThreadableWebSocketChannel::mainThreadSendArrayBuffer(ScriptExecutionContext* context, Peer* peer, PassOwnPtr<Vector<char> > data)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
RefPtr<ArrayBuffer> arrayBuffer = ArrayBuffer::create(data->data(), data->size());
peer->send(*arrayBuffer);
}
void WorkerThreadableWebSocketChannel::mainThreadSendBlob(ScriptExecutionContext* context, Peer* peer, const KURL& url, const String& type, long long size)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
RefPtr<Blob> blob = Blob::create(url, type, size);
peer->send(*blob);
}
ThreadableWebSocketChannel::SendResult WorkerThreadableWebSocketChannel::Bridge::send(const String& message)
{
if (!m_workerClientWrapper || !m_peer)
return ThreadableWebSocketChannel::SendFail;
setMethodNotCompleted();
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadSend, AllowCrossThreadAccess(m_peer), message));
RefPtr<Bridge> protect(this);
waitForMethodCompletion();
ThreadableWebSocketChannelClientWrapper* clientWrapper = m_workerClientWrapper.get();
if (!clientWrapper)
return ThreadableWebSocketChannel::SendFail;
return clientWrapper->sendRequestResult();
}
ThreadableWebSocketChannel::SendResult WorkerThreadableWebSocketChannel::Bridge::send(const ArrayBuffer& binaryData, unsigned byteOffset, unsigned byteLength)
{
if (!m_workerClientWrapper || !m_peer)
return ThreadableWebSocketChannel::SendFail;
// ArrayBuffer isn't thread-safe, hence the content of ArrayBuffer is copied into Vector<char>.
OwnPtr<Vector<char> > data = adoptPtr(new Vector<char>(byteLength));
if (binaryData.byteLength())
memcpy(data->data(), static_cast<const char*>(binaryData.data()) + byteOffset, byteLength);
setMethodNotCompleted();
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadSendArrayBuffer, AllowCrossThreadAccess(m_peer), data.release()));
RefPtr<Bridge> protect(this);
waitForMethodCompletion();
ThreadableWebSocketChannelClientWrapper* clientWrapper = m_workerClientWrapper.get();
if (!clientWrapper)
return ThreadableWebSocketChannel::SendFail;
return clientWrapper->sendRequestResult();
}
ThreadableWebSocketChannel::SendResult WorkerThreadableWebSocketChannel::Bridge::send(const Blob& binaryData)
{
if (!m_workerClientWrapper || !m_peer)
return ThreadableWebSocketChannel::SendFail;
setMethodNotCompleted();
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadSendBlob, AllowCrossThreadAccess(m_peer), binaryData.url(), binaryData.type(), binaryData.size()));
RefPtr<Bridge> protect(this);
waitForMethodCompletion();
ThreadableWebSocketChannelClientWrapper* clientWrapper = m_workerClientWrapper.get();
if (!clientWrapper)
return ThreadableWebSocketChannel::SendFail;
return clientWrapper->sendRequestResult();
}
void WorkerThreadableWebSocketChannel::mainThreadBufferedAmount(ScriptExecutionContext* context, Peer* peer)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
peer->bufferedAmount();
}
unsigned long WorkerThreadableWebSocketChannel::Bridge::bufferedAmount()
{
if (!m_workerClientWrapper || !m_peer)
return 0;
setMethodNotCompleted();
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadBufferedAmount, AllowCrossThreadAccess(m_peer)));
RefPtr<Bridge> protect(this);
waitForMethodCompletion();
ThreadableWebSocketChannelClientWrapper* clientWrapper = m_workerClientWrapper.get();
if (clientWrapper)
return clientWrapper->bufferedAmount();
return 0;
}
void WorkerThreadableWebSocketChannel::mainThreadClose(ScriptExecutionContext* context, Peer* peer, int code, const String& reason)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
peer->close(code, reason);
}
void WorkerThreadableWebSocketChannel::Bridge::close(int code, const String& reason)
{
if (!m_peer)
return;
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadClose, AllowCrossThreadAccess(m_peer), code, reason));
}
void WorkerThreadableWebSocketChannel::mainThreadFail(ScriptExecutionContext* context, Peer* peer, const String& reason)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
peer->fail(reason);
}
void WorkerThreadableWebSocketChannel::Bridge::fail(const String& reason)
{
if (!m_peer)
return;
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadFail, AllowCrossThreadAccess(m_peer), reason));
}
void WorkerThreadableWebSocketChannel::mainThreadDestroy(ScriptExecutionContext* context, PassOwnPtr<Peer> peer)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT_UNUSED(peer, peer);
// Peer object will be deleted even if the task does not run in the main thread's cleanup period, because
// the destructor for the task object (created by createCallbackTask()) will automatically delete the peer.
}
void WorkerThreadableWebSocketChannel::Bridge::disconnect()
{
clearClientWrapper();
if (m_peer) {
OwnPtr<Peer> peer = adoptPtr(m_peer);
m_peer = 0;
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadDestroy, peer.release()));
}
m_workerContext = 0;
}
void WorkerThreadableWebSocketChannel::mainThreadSuspend(ScriptExecutionContext* context, Peer* peer)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
peer->suspend();
}
void WorkerThreadableWebSocketChannel::Bridge::suspend()
{
if (!m_peer)
return;
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadSuspend, AllowCrossThreadAccess(m_peer)));
}
void WorkerThreadableWebSocketChannel::mainThreadResume(ScriptExecutionContext* context, Peer* peer)
{
ASSERT(isMainThread());
ASSERT_UNUSED(context, context->isDocument());
ASSERT(peer);
peer->resume();
}
void WorkerThreadableWebSocketChannel::Bridge::resume()
{
if (!m_peer)
return;
m_loaderProxy.postTaskToLoader(createCallbackTask(&WorkerThreadableWebSocketChannel::mainThreadResume, AllowCrossThreadAccess(m_peer)));
}
void WorkerThreadableWebSocketChannel::Bridge::clearClientWrapper()
{
m_workerClientWrapper->clearClient();
}
void WorkerThreadableWebSocketChannel::Bridge::setMethodNotCompleted()
{
ASSERT(m_workerClientWrapper);
m_workerClientWrapper->clearSyncMethodDone();
}
// Caller of this function should hold a reference to the bridge, because this function may call WebSocket::didClose() in the end,
// which causes the bridge to get disconnected from the WebSocket and deleted if there is no other reference.
void WorkerThreadableWebSocketChannel::Bridge::waitForMethodCompletion()
{
if (!m_workerContext)
return;
WorkerRunLoop& runLoop = m_workerContext->thread()->runLoop();
MessageQueueWaitResult result = MessageQueueMessageReceived;
ThreadableWebSocketChannelClientWrapper* clientWrapper = m_workerClientWrapper.get();
while (m_workerContext && clientWrapper && !clientWrapper->syncMethodDone() && result != MessageQueueTerminated) {
result = runLoop.runInMode(m_workerContext.get(), m_taskMode); // May cause this bridge to get disconnected, which makes m_workerContext become null.
clientWrapper = m_workerClientWrapper.get();
}
}
} // namespace WebCore
#endif // ENABLE(WEB_SOCKETS)